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Generally speaking , bit shifting (>> , <<)allows us to divide / multiply by ^2

Example :

      9 (base 10): 00000000000000000000000000001001 (base 2)
 9 >> 2 (base 10): 00000000000000000000000000000010 (base 2) 

= 2 (base 10)

For negative numbers :

Likewise, -9 >> 2 yields -3, because the sign is preserved:

     -9 (base 10): 11111111111111111111111111110111 (base 2)
-9 >> 2 (base 10): 11111111111111111111111111111101 (base 2) = -3 (base 10)

But looking at >>> which acts the same for positive numbers ,m but behaves differently for negative numebrs :


Zero bits are shifted in from the left

I can't find any reason / usage for shifting 0 from the left ( which makes the whole number positive) from the left :

       -9 (base 10): 11111111111111111111111111110111 (base 2)
 -9 >>> 2 (base 10): 00111111111111111111111111111101 (base 2) = 1073741821 (base 10)

Question :

In what scenarios should I use >>> ? I don't understand why should I ever want to pad zeros from the left and mess my negative number.

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Read logical right shift, the >>> operator, >> preserves sign but >>> not –  Grijesh Chauhan Sep 29 '13 at 12:14
@GrijeshChauhan it's really helpful but it only explains how it works which I already know that. but in what scenarios I should use it ? I dont see any math operation with shifting those bits to the right and add left padding zeros. I mean , If I told you to divide a number by using bitwise operations - you would choose >> but when would you choose >>> ? –  Royi Namir Sep 29 '13 at 12:16
ok I read your question again. Somewhere I read that unsigned shift are frequently uses in graphics programming. I don't know how. so +. –  Grijesh Chauhan Sep 29 '13 at 12:17
Read: Read usage of >>> sometime we use in programming to for example I used here in my answer –  Grijesh Chauhan Sep 29 '13 at 12:20
@RoyiNamir it depends on how you read(interpret) 11111111111111111111111111110111. I may want to use as unsigned int 0xfffffff7 and do the right shift to divide it. –  L.B Sep 29 '13 at 12:21

1 Answer 1

up vote 3 down vote accepted

Let's say you were programming something to mimic a piece of hardware, specifically a shift register.

To make things easier I'll use 8 bits instead of 32 bits as in your question.

We can add 128 every time we want to feed a high bit into this shift-register, since it will make the leftmost bit 1.

// Assume n is initialised to 0, so n = 00000000 in binary
n += 128;                    // now n = 10000000 in binary

If we shift using >>> every time you want to simulate a clock cycle, then after 8 "clock cycles" we will have that 1 at the rightmost bit. If we read that rightmost bit out then we will get a delayed version of what was fed into the leftmost bit 8 cycles ago.

This is only one example where the bits are not interpreted as a number, and I am sure there are many more. I think you'll find a few more uses elsewhere, especially in software meant to mimic hardware circuits/building blocks.

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